The committee, which is made up of 31 organizations and
individuals, formed in 2011 when the Environmental Protection Agency
made grants to states in the Mississippi River Basin to develop and
implement nutrient reduction strategies.
Before taking steps to reduce the nutrient load, it’s important to
understand where the nutrients are coming from, said Bob Broz, a
University of Missouri Extension assistant professor and member of the
committee.
“We’re looking at non-point source pollution such as fertilizer
use, and we’re looking at point source pollution that is produced under
different permitting processes,” Broz said.
Non-point source pollution comes sources that generally can’t be
determined precisely, such as runoff from farms, parks and lawns. Broz
says non-point source accounts for about 90 percent of the nutrient
load.
The Mississippi River Basin is the third-largest drainage area in
the world. Water from parts of 37 states drains into the Mississippi
River and ends up in the Gulf of Mexico. If the water has too many
nutrients in it, it creates a hypoxia zone, with oxygen levels too low
to support most life. Because of this, the hypoxia zone in the gulf has
been nicknamed the “dead zone.”
Nutrients going into the ocean promote excessive algae growth. When
that algae starts dying off, decomposition of all that plant matter
removes oxygen from the water, Broz said. “So there is an area where the
oxygen is at less than 2 milligrams per liter, which will not support
life in most cases.”
Last year the hypoxia zone measured 8,500 square miles, about the
size of Massachusetts. Broz says the committee is looking at Missouri’s
contribution to the nutrient load and trying to figure out ways to
reduce that load.
“From the agriculturalist point of view, if we have that kind of
nitrogen and phosphorus going down the river, it means we’ve wasted
money and we’re not making effective use of our fertilizer,” Broz said.
“If we can reduce the loads, in the long run it will save producers
money to produce their crop and increase their profitability.”
The committee has been tasked with finding where the most intense
loads are coming from, what kind of strategies would help reduce that
load, and look for ways to pay for putting those strategies into
practice.
“Several things are going to have to work hand-in-hand in order for
this to be successful,” Broz said. “One of them is getting word out to
the people and asking them what strategies they are willing to do.
Second is finding potential funding sources to implement practices that
would reduce the load. Variable-rate application of nutrients could be
one of them. Cover crops may be another one that can actually reduce the
commercial fertilizer load.”
EPA is asking each group that received one of these grants to come
up with a 45-percent reduction. Broz questions whether that is realistic
or even attainable, but he says that steps need to be taken to reduce
nutrient loading from both the environmental and economic side, and
striking a balance between the two is important.
“If it is not cost-effective, it is going to be very hard to sell
this to the average producer,” Broz said. “If it is cost-effective, then
the chances of them implementing something and continuing it for
long-term water quality is considerably better, especially if we can do
it without hurting profitability or production numbers.”
No comments:
Post a Comment